1434 lines
84 KiB
Plaintext
1434 lines
84 KiB
Plaintext
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Excerpt from UltraSPARC Virtual Machine Specification
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Compiled from version 3.0.20+15
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Publication date 2017-09-25 08:21
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Copyright © 2008, 2015 Oracle and/or its affiliates. All rights reserved.
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Extracted via "pdftotext -f 547 -l 572 -layout sun4v_20170925.pdf"
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Authors:
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Charles Kunzman
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Sam Glidden
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Mark Cianchetti
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Chapter 36. Coprocessor services
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The following APIs provide access via the Hypervisor to hardware assisted data processing functionality.
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These APIs may only be provided by certain platforms, and may not be available to all virtual machines
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even on supported platforms. Restrictions on the use of these APIs may be imposed in order to support
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live-migration and other system management activities.
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36.1. Data Analytics Accelerator
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The Data Analytics Accelerator (DAX) functionality is a collection of hardware coprocessors that provide
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high speed processoring of database-centric operations. The coprocessors may support one or more of
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the following data query operations: search, extraction, compression, decompression, and translation. The
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functionality offered may vary by virtual machine implementation.
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The DAX is a virtual device to sun4v guests, with supported data operations indicated by the virtual device
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compatibility property. Functionality is accessed through the submission of Command Control Blocks
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(CCBs) via the ccb_submit API function. The operations are processed asynchronously, with the status
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of the submitted operations reported through a Completion Area linked to each CCB. Each CCB has a
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separate Completion Area and, unless execution order is specifically restricted through the use of serial-
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conditional flags, the execution order of submitted CCBs is arbitrary. Likewise, the time to completion
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for a given CCB is never guaranteed.
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Guest software may implement a software timeout on CCB operations, and if the timeout is exceeded, the
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operation may be cancelled or killed via the ccb_kill API function. It is recommended for guest software
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to implement a software timeout to account for certain RAS errors which may result in lost CCBs. It is
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recommended such implementation use the ccb_info API function to check the status of a CCB prior to
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killing it in order to determine if the CCB is still in queue, or may have been lost due to a RAS error.
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There is no fixed limit on the number of outstanding CCBs guest software may have queued in the virtual
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machine, however, internal resource limitations within the virtual machine can cause CCB submissions
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to be temporarily rejected with EWOULDBLOCK. In such cases, guests should continue to attempt
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submissions until they succeed; waiting for an outstanding CCB to complete is not necessary, and would
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not be a guarantee that a future submission would succeed.
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The availablility of DAX coprocessor command service is indicated by the presence of the DAX virtual
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device node in the guest MD (Section 8.24.17, “Database Analytics Accelerators (DAX) virtual-device
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node”).
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36.1.1. DAX Compatibility Property
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The query functionality may vary based on the compatibility property of the virtual device:
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36.1.1.1. "ORCL,sun4v-dax" Device Compatibility
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Available CCB commands:
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• No-op/Sync
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• Extract
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• Scan Value
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• Inverted Scan Value
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• Scan Range
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509
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Coprocessor services
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• Inverted Scan Range
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• Translate
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• Inverted Translate
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• Select
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See Section 36.2.1, “Query CCB Command Formats” for the corresponding CCB input and output formats.
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Only version 0 CCBs are available.
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36.1.1.2. "ORCL,sun4v-dax-fc" Device Compatibility
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"ORCL,sun4v-dax-fc" is compatible with the "ORCL,sun4v-dax" interface, and includes additional CCB
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bit fields and controls.
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36.1.1.3. "ORCL,sun4v-dax2" Device Compatibility
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Available CCB commands:
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• No-op/Sync
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• Extract
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• Scan Value
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• Inverted Scan Value
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• Scan Range
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• Inverted Scan Range
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• Translate
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• Inverted Translate
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• Select
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See Section 36.2.1, “Query CCB Command Formats” for the corresponding CCB input and output formats.
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Version 0 and 1 CCBs are available. Only version 0 CCBs may use Huffman encoded data, whereas only
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version 1 CCBs may use OZIP.
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36.1.2. DAX Virtual Device Interrupts
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The DAX virtual device has multiple interrupts associated with it which may be used by the guest if
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desired. The number of device interrupts available to the guest is indicated in the virtual device node of the
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guest MD (Section 8.24.17, “Database Analytics Accelerators (DAX) virtual-device node”). If the device
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node indicates N interrupts available, the guest may use any value from 0 to N - 1 (inclusive) in a CCB
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interrupt number field. Using values outside this range will result in the CCB being rejected for an invalid
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field value.
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The interrupts may be bound and managed using the standard sun4v device interrupts API (Chapter 16,
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Device interrupt services). Sysino interrupts are not available for DAX devices.
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36.2. Coprocessor Control Block (CCB)
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CCBs are either 64 or 128 bytes long, depending on the operation type. The exact contents of the CCB
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are command specific, but all CCBs contain at least one memory buffer address. All memory locations
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510
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Coprocessor services
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referenced by a CCB must be pinned in memory until the CCB either completes execution or is killed
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via the ccb_kill API call. Changes in virtual address mappings occurring after CCB submission are not
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guaranteed to be visible, and as such all virtual address updates need to be synchronized with CCB
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execution.
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All CCBs begin with a common 32-bit header.
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Table 36.1. CCB Header Format
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Bits Field Description
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[31:28] CCB version. For API version 2.0: set to 1 if CCB uses OZIP encoding; set to 0 if the CCB
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uses Huffman encoding; otherwise either 0 or 1. For API version 1.0: always set to 0.
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[27] When API version 2.0 is negotiated, this is the Pipeline Flag [512]. It is reserved in
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API version 1.0
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[26] Long CCB flag [512]
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[25] Conditional synchronization flag [512]
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[24] Serial synchronization flag
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[23:16] CCB operation code:
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0x00 No Operation (No-op) or Sync
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0x01 Extract
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0x02 Scan Value
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0x12 Inverted Scan Value
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0x03 Scan Range
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0x13 Inverted Scan Range
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0x04 Translate
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0x14 Inverted Translate
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0x05 Select
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[15:13] Reserved
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[12:11] Table address type
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0b'00 No address
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0b'01 Alternate context virtual address
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0b'10 Real address
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0b'11 Primary context virtual address
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[10:8] Output/Destination address type
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0b'000 No address
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0b'001 Alternate context virtual address
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0b'010 Real address
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0b'011 Primary context virtual address
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0b'100 Reserved
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0b'101 Reserved
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0b'110 Reserved
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0b'111 Reserved
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[7:5] Secondary source address type
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511
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Coprocessor services
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Bits Field Description
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0b'000 No address
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0b'001 Alternate context virtual address
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0b'010 Real address
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0b'011 Primary context virtual address
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0b'100 Reserved
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0b'101 Reserved
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0b'110 Reserved
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0b'111 Reserved
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[4:2] Primary source address type
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0b'000 No address
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0b'001 Alternate context virtual address
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0b'010 Real address
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0b'011 Primary context virtual address
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0b'100 Reserved
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0b'101 Reserved
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0b'110 Reserved
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0b'111 Reserved
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[1:0] Completion area address type
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0b'00 No address
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0b'01 Alternate context virtual address
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0b'10 Real address
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0b'11 Primary context virtual address
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The Long CCB flag indicates whether the submitted CCB is 64 or 128 bytes long; value is 0 for 64 bytes
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and 1 for 128 bytes.
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The Serial and Conditional flags allow simple relative ordering between CCBs. Any CCB with the Serial
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flag set will execute sequentially relative to any previous CCB that is also marked as Serial in the same
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CCB submission. CCBs without the Serial flag set execute independently, even if they are between CCBs
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with the Serial flag set. CCBs marked solely with the Serial flag will execute upon the completion of the
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previous Serial CCB, regardless of the completion status of that CCB. The Conditional flag allows CCBs
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to conditionally execute based on the successful execution of the closest CCB marked with the Serial flag.
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A CCB may only be conditional on exactly one CCB, however, a CCB may be marked both Conditional
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and Serial to allow execution chaining. The flags do NOT allow fan-out chaining, where multiple CCBs
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execute in parallel based on the completion of another CCB.
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The Pipeline flag is an optimization that directs the output of one CCB (the "source" CCB) directly to
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the input of the next CCB (the "target" CCB). The target CCB thus does not need to read the input from
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memory. The Pipeline flag is advisory and may be dropped.
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Both the Pipeline and Serial bits must be set in the source CCB. The Conditional bit must be set in the
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target CCB. Exactly one CCB must be made conditional on the source CCB; either 0 or 2 target CCBs
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is invalid. However, Pipelines can be extended beyond two CCBs: the sequence would start with a CCB
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with both the Pipeline and Serial bits set, proceed through CCBs with the Pipeline, Serial, and Conditional
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bits set, and terminate at a CCB that has the Conditional bit set, but not the Pipeline bit.
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512
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Coprocessor services
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The input of the target CCB must start within 64 bytes of the output of the source CCB or the pipeline flag
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will be ignored. All CCBs in a pipeline must be submitted in the same call to ccb_submit.
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The various address type fields indicate how the various address values used in the CCB should be
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interpreted by the virtual machine. Not all of the types specified are used by every CCB format. Types
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which are not applicable to the given CCB command should be indicated as type 0 (No address). Virtual
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addresses used in the CCB must have translation entries present in either the TLB or a configured TSB
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for the submitting virtual processor. Virtual addresses which cannot be translated by the virtual machine
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will result in the CCB submission being rejected, with the causal virtual address indicated. The CCB
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may be resubmitted after inserting the translation, or the address may be translated by guest software and
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resubmitted using the real address translation.
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36.2.1. Query CCB Command Formats
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36.2.1.1. Supported Data Formats, Elements Sizes and Offsets
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Data for query commands may be encoded in multiple possible formats. The data query commands use a
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common set of values to indicate the encoding formats of the data being processed. Some encoding formats
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require multiple data streams for processing, requiring the specification of both primary data formats (the
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encoded data) and secondary data streams (meta-data for the encoded data).
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36.2.1.1.1. Primary Input Format
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The primary input format code is a 4-bit field when it is used. There are 10 primary input formats available.
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The packed formats are not endian neutral. Code values not listed below are reserved.
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Code Format Description
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0x0 Fixed width byte packed Up to 16 bytes
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0x1 Fixed width bit packed Up to 15 bits (CCB version 0) or 23 bits (CCB version
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1); bits are read most significant bit to least significant bit
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within a byte
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0x2 Variable width byte packed Data stream of lengths must be provided as a secondary
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input
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0x4 Fixed width byte packed with run Up to 16 bytes; data stream of run lengths must be
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length encoding provided as a secondary input
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0x5 Fixed width bit packed with run Up to 15 bits (CCB version 0) or 23 bits (CCB version
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length encoding 1); bits are read most significant bit to least significant bit
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within a byte; data stream of run lengths must be provided
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as a secondary input
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0x8 Fixed width byte packed with Up to 16 bytes before the encoding; compressed stream
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Huffman (CCB version 0) or bits are read most significant bit to least significant bit
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OZIP (CCB version 1) encoding within a byte; pointer to the encoding table must be
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provided
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0x9 Fixed width bit packed with Up to 15 bits (CCB version 0) or 23 bits (CCB version
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Huffman (CCB version 0) or 1); compressed stream bits are read most significant bit to
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OZIP (CCB version 1) encoding least significant bit within a byte; pointer to the encoding
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table must be provided
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0xA Variable width byte packed with Up to 16 bytes before the encoding; compressed stream
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Huffman (CCB version 0) or bits are read most significant bit to least significant bit
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OZIP (CCB version 1) encoding within a byte; data stream of lengths must be provided as
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a secondary input; pointer to the encoding table must be
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provided
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513
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Coprocessor services
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Code Format Description
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0xC Fixed width byte packed with Up to 16 bytes before the encoding; compressed stream
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run length encoding, followed by bits are read most significant bit to least significant bit
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Huffman (CCB version 0) or within a byte; data stream of run lengths must be provided
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OZIP (CCB version 1) encoding as a secondary input; pointer to the encoding table must
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be provided
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0xD Fixed width bit packed with Up to 15 bits (CCB version 0) or 23 bits(CCB version 1)
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run length encoding, followed by before the encoding; compressed stream bits are read most
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Huffman (CCB version 0) or significant bit to least significant bit within a byte; data
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OZIP (CCB version 1) encoding stream of run lengths must be provided as a secondary
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input; pointer to the encoding table must be provided
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If OZIP encoding is used, there must be no reserved bytes in the table.
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36.2.1.1.2. Primary Input Element Size
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For primary input data streams with fixed size elements, the element size must be indicated in the CCB
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command. The size is encoded as the number of bits or bytes, minus one. The valid value range for this
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field depends on the input format selected, as listed in the table above.
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36.2.1.1.3. Secondary Input Format
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For primary input data streams which require a secondary input stream, the secondary input stream is
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always encoded in a fixed width, bit-packed format. The bits are read from most significant bit to least
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significant bit within a byte. There are two encoding options for the secondary input stream data elements,
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depending on whether the value of 0 is needed:
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Secondary Input Description
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Format Code
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0 Element is stored as value minus 1 (0 evaluates to 1, 1 evaluates
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to 2, etc)
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1 Element is stored as value
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36.2.1.1.4. Secondary Input Element Size
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Secondary input element size is encoded as a two bit field:
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Secondary Input Size Description
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Code
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0x0 1 bit
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0x1 2 bits
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0x2 4 bits
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0x3 8 bits
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36.2.1.1.5. Input Element Offsets
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Bit-wise input data streams may have any alignment within the base addressed byte. The offset, specified
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from most significant bit to least significant bit, is provided as a fixed 3 bit field for each input type. A
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value of 0 indicates that the first input element begins at the most significant bit in the first byte, and a
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value of 7 indicates it begins with the least significant bit.
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This field should be zero for any byte-wise primary input data streams.
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514
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Coprocessor services
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36.2.1.1.6. Output Format
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Query commands support multiple sizes and encodings for output data streams. There are four possible
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output encodings, and up to four supported element sizes per encoding. Not all output encodings are
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supported for every command. The format is indicated by a 4-bit field in the CCB:
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Output Format Code Description
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0x0 Byte aligned, 1 byte elements
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0x1 Byte aligned, 2 byte elements
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0x2 Byte aligned, 4 byte elements
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0x3 Byte aligned, 8 byte elements
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0x4 16 byte aligned, 16 byte elements
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0x5 Reserved
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0x6 Reserved
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0x7 Reserved
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0x8 Packed vector of single bit elements
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0x9 Reserved
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0xA Reserved
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0xB Reserved
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0xC Reserved
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0xD 2 byte elements where each element is the index value of a bit,
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from an bit vector, which was 1.
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0xE 4 byte elements where each element is the index value of a bit,
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from an bit vector, which was 1.
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0xF Reserved
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36.2.1.1.7. Application Data Integrity (ADI)
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On platforms which support ADI, the ADI version number may be specified for each separate memory
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access type used in the CCB command. ADI checking only occurs when reading data. When writing data,
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the specified ADI version number overwrites any existing ADI value in memory.
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An ADI version value of 0 or 0xF indicates the ADI checking is disabled for that data access, even if it is
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enabled in memory. By setting the appropriate flag in CCB_SUBMIT (Section 36.3.1, “ccb_submit”) it is
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also an option to disable ADI checking for all inputs accessed via virtual address for all CCBs submitted
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during that hypercall invocation.
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|||
|
The ADI value is only guaranteed to be checked on the first 64 bytes of each data access. Mismatches on
|
|||
|
subsequent data chunks may not be detected, so guest software should be careful to use page size checking
|
|||
|
to protect against buffer overruns.
|
|||
|
|
|||
|
36.2.1.1.8. Page size checking
|
|||
|
|
|||
|
All data accesses used in CCB commands must be bounded within a single memory page. When addresses
|
|||
|
are provided using a virtual address, the page size for checking is extracted from the TTE for that virtual
|
|||
|
address. When using real addresses, the guest must supply the page size in the same field as the address
|
|||
|
value. The page size must be one of the sizes supported by the underlying virtual machine. Using a value
|
|||
|
that is not supported may result in the CCB submission being rejected or the generation of a CCB parsing
|
|||
|
error in the completion area.
|
|||
|
|
|||
|
|
|||
|
515
|
|||
|
Coprocessor services
|
|||
|
|
|||
|
|
|||
|
36.2.1.2. Extract command
|
|||
|
|
|||
|
Converts an input vector in one format to an output vector in another format. All input format types are
|
|||
|
supported.
|
|||
|
|
|||
|
The only supported output format is a padded, byte-aligned output stream, using output codes 0x0 - 0x4.
|
|||
|
When the specified output element size is larger than the extracted input element size, zeros are padded to
|
|||
|
the extracted input element. First, if the decompressed input size is not a whole number of bytes, 0 bits are
|
|||
|
padded to the most significant bit side till the next byte boundary. Next, if the output element size is larger
|
|||
|
than the byte padded input element, bytes of value 0 are added based on the Padding Direction bit in the
|
|||
|
CCB. If the output element size is smaller than the byte-padded input element size, the input element is
|
|||
|
truncated by dropped from the least significant byte side until the selected output size is reached.
|
|||
|
|
|||
|
The return value of the CCB completion area is invalid. The “number of elements processed” field in the
|
|||
|
CCB completion area will be valid.
|
|||
|
|
|||
|
The extract CCB is a 64-byte “short format” CCB.
|
|||
|
|
|||
|
The extract CCB command format can be specified by the following packed C structure for a big-endian
|
|||
|
machine:
|
|||
|
|
|||
|
|
|||
|
struct extract_ccb {
|
|||
|
uint32_t header;
|
|||
|
uint32_t control;
|
|||
|
uint64_t completion;
|
|||
|
uint64_t primary_input;
|
|||
|
uint64_t data_access_control;
|
|||
|
uint64_t secondary_input;
|
|||
|
uint64_t reserved;
|
|||
|
uint64_t output;
|
|||
|
uint64_t table;
|
|||
|
};
|
|||
|
|
|||
|
|
|||
|
The exact field offsets, sizes, and composition are as follows:
|
|||
|
|
|||
|
Offset Size Field Description
|
|||
|
0 4 CCB header (Table 36.1, “CCB Header Format”)
|
|||
|
4 4 Command control
|
|||
|
Bits Field Description
|
|||
|
[31:28] Primary Input Format (see Section 36.2.1.1.1, “Primary Input
|
|||
|
Format”)
|
|||
|
[27:23] Primary Input Element Size (see Section 36.2.1.1.2, “Primary
|
|||
|
Input Element Size”)
|
|||
|
[22:20] Primary Input Starting Offset (see Section 36.2.1.1.5, “Input
|
|||
|
Element Offsets”)
|
|||
|
[19] Secondary Input Format (see Section 36.2.1.1.3, “Secondary
|
|||
|
Input Format”)
|
|||
|
[18:16] Secondary Input Starting Offset (see Section 36.2.1.1.5, “Input
|
|||
|
Element Offsets”)
|
|||
|
|
|||
|
|
|||
|
516
|
|||
|
Coprocessor services
|
|||
|
|
|||
|
|
|||
|
Offset Size Field Description
|
|||
|
Bits Field Description
|
|||
|
[15:14] Secondary Input Element Size (see Section 36.2.1.1.4,
|
|||
|
“Secondary Input Element Size”
|
|||
|
[13:10] Output Format (see Section 36.2.1.1.6, “Output Format”)
|
|||
|
[9] Padding Direction selector: A value of 1 causes padding bytes
|
|||
|
to be added to the left side of output elements. A value of 0
|
|||
|
causes padding bytes to be added to the right side of output
|
|||
|
elements.
|
|||
|
[8:0] Reserved
|
|||
|
8 8 Completion
|
|||
|
Bits Field Description
|
|||
|
[63:60] ADI version (see Section 36.2.1.1.7, “Application Data
|
|||
|
Integrity (ADI)”)
|
|||
|
[59] If set to 1, a virtual device interrupt will be generated using
|
|||
|
the device interrupt number specified in the lower bits of this
|
|||
|
completion word. If 0, the lower bits of this completion word
|
|||
|
are ignored.
|
|||
|
[58:6] Completion area address bits [58:6]. Address type is
|
|||
|
determined by CCB header.
|
|||
|
[5:0] Virtual device interrupt number for completion interrupt, if
|
|||
|
enabled.
|
|||
|
16 8 Primary Input
|
|||
|
Bits Field Description
|
|||
|
[63:60] ADI version (see Section 36.2.1.1.7, “Application Data
|
|||
|
Integrity (ADI)”)
|
|||
|
[59:56] If using real address, these bits should be filled in with the
|
|||
|
page size code for the page boundary checking the guest wants
|
|||
|
the virtual machine to use when accessing this data stream
|
|||
|
(checking is only guaranteed to be performed when using API
|
|||
|
version 1.1 and later). If using a virtual address, this field will
|
|||
|
be used as as primary input address bits [59:56].
|
|||
|
[55:0] Primary input address bits [55:0]. Address type is determined
|
|||
|
by CCB header.
|
|||
|
24 8 Data Access Control
|
|||
|
Bits Field Description
|
|||
|
[63:62] Flow Control
|
|||
|
Value Description
|
|||
|
0b'00 Disable flow control
|
|||
|
0b'01 Enable flow control (only valid with "ORCL,sun4v-
|
|||
|
dax-fc" compatible virtual device variants)
|
|||
|
0b'10 Reserved
|
|||
|
0b'11 Reserved
|
|||
|
[61:60] Reserved (API 1.0)
|
|||
|
|
|||
|
|
|||
|
517
|
|||
|
Coprocessor services
|
|||
|
|
|||
|
|
|||
|
Offset Size Field Description
|
|||
|
Bits Field Description
|
|||
|
Pipeline target (API 2.0)
|
|||
|
Value Description
|
|||
|
0b'00 Connect to primary input
|
|||
|
0b'01 Connect to secondary input
|
|||
|
0b'10 Reserved
|
|||
|
0b'11 Reserved
|
|||
|
[59:40] Output buffer size given in units of 64 bytes, minus 1. Value of
|
|||
|
0 means 64 bytes, value of 1 means 128 bytes, etc. Buffer size is
|
|||
|
only enforced if flow control is enabled in Flow Control field.
|
|||
|
[39:32] Reserved
|
|||
|
[31:30] Output Data Cache Allocation
|
|||
|
Value Description
|
|||
|
0b'00 Do not allocate cache lines for output data stream.
|
|||
|
0b'01 Force cache lines for output data stream to be
|
|||
|
allocated in the cache that is local to the submitting
|
|||
|
virtual cpu.
|
|||
|
0b'10 Allocate cache lines for output data stream, but allow
|
|||
|
existing cache lines associated with the data to remain
|
|||
|
in their current cache instance. Any memory not
|
|||
|
already in cache will be allocated in the cache local
|
|||
|
to the submitting virtual cpu.
|
|||
|
0b'11 Reserved
|
|||
|
[29:26] Reserved
|
|||
|
[25:24] Primary Input Length Format
|
|||
|
Value Description
|
|||
|
0b'00 Number of primary symbols
|
|||
|
0b'01 Number of primary bytes
|
|||
|
0b'10 Number of primary bits
|
|||
|
0b'11 Reserved
|
|||
|
[23:0] Primary Input Length
|
|||
|
Format Field Value
|
|||
|
# of primary symbols Number of input elements to process,
|
|||
|
minus 1. Command execution stops
|
|||
|
once count is reached.
|
|||
|
# of primary bytes Number of input bytes to process,
|
|||
|
minus 1. Command execution stops
|
|||
|
once count is reached. The count is
|
|||
|
done before any decompression or
|
|||
|
decoding.
|
|||
|
# of primary bits Number of input bits to process,
|
|||
|
minus 1. Command execution stops
|
|||
|
|
|||
|
|
|||
|
|
|||
|
518
|
|||
|
Coprocessor services
|
|||
|
|
|||
|
|
|||
|
Offset Size Field Description
|
|||
|
Bits Field Description
|
|||
|
Format Field Value
|
|||
|
once count is reached. The count is
|
|||
|
done before any decompression or
|
|||
|
decoding, and does not include any
|
|||
|
bits skipped by the Primary Input
|
|||
|
Offset field value of the command
|
|||
|
control word.
|
|||
|
32 8 Secondary Input, if used by Primary Input Format. Same fields as Primary
|
|||
|
Input.
|
|||
|
40 8 Reserved
|
|||
|
48 8 Output (same fields as Primary Input)
|
|||
|
56 8 Symbol Table (if used by Primary Input)
|
|||
|
Bits Field Description
|
|||
|
[63:60] ADI version (see Section 36.2.1.1.7, “Application Data
|
|||
|
Integrity (ADI)”)
|
|||
|
[59:56] If using real address, these bits should be filled in with the
|
|||
|
page size code for the page boundary checking the guest wants
|
|||
|
the virtual machine to use when accessing this data stream
|
|||
|
(checking is only guaranteed to be performed when using API
|
|||
|
version 1.1 and later). If using a virtual address, this field will
|
|||
|
be used as as symbol table address bits [59:56].
|
|||
|
[55:4] Symbol table address bits [55:4]. Address type is determined
|
|||
|
by CCB header.
|
|||
|
[3:0] Symbol table version
|
|||
|
Value Description
|
|||
|
0 Huffman encoding. Must use 64 byte aligned table
|
|||
|
address. (Only available when using version 0 CCBs)
|
|||
|
1 OZIP encoding. Must use 16 byte aligned table
|
|||
|
address. (Only available when using version 1 CCBs)
|
|||
|
|
|||
|
|
|||
|
36.2.1.3. Scan commands
|
|||
|
|
|||
|
The scan commands search a stream of input data elements for values which match the selection criteria.
|
|||
|
All the input format types are supported. There are multiple formats for the scan commands, allowing the
|
|||
|
scan to search for exact matches to one value, exact matches to either of two values, or any value within
|
|||
|
a specified range. The specific type of scan is indicated by the command code in the CCB header. For the
|
|||
|
scan range commands, the boundary conditions can be specified as greater-than-or-equal-to a value, less-
|
|||
|
than-or-equal-to a value, or both by using two boundary values.
|
|||
|
|
|||
|
There are two supported formats for the output stream: the bit vector and index array formats (codes 0x8,
|
|||
|
0xD, and 0xE). For the standard scan command using the bit vector output, for each input element there
|
|||
|
exists one bit in the vector that is set if the input element matched the scan criteria, or clear if not. The
|
|||
|
inverted scan command inverts the polarity of the bits in the output. The most significant bit of the first
|
|||
|
byte of the output stream corresponds to the first element in the input stream. The standard index array
|
|||
|
output format contains one array entry for each input element that matched the scan criteria. Each array
|
|||
|
|
|||
|
|
|||
|
|
|||
|
519
|
|||
|
Coprocessor services
|
|||
|
|
|||
|
|
|||
|
entry is the index of an input element that matched the scan criteria. An inverted scan command produces
|
|||
|
a similar array, but of all the input elements which did NOT match the scan criteria.
|
|||
|
|
|||
|
The return value of the CCB completion area contains the number of input elements found which match
|
|||
|
the scan criteria (or number that did not match for the inverted scans). The “number of elements processed”
|
|||
|
field in the CCB completion area will be valid, indicating the number of input elements processed.
|
|||
|
|
|||
|
These commands are 128-byte “long format” CCBs.
|
|||
|
|
|||
|
The scan CCB command format can be specified by the following packed C structure for a big-endian
|
|||
|
machine:
|
|||
|
|
|||
|
|
|||
|
struct scan_ccb {
|
|||
|
uint32_t header;
|
|||
|
uint32_t control;
|
|||
|
uint64_t completion;
|
|||
|
uint64_t primary_input;
|
|||
|
uint64_t data_access_control;
|
|||
|
uint64_t secondary_input;
|
|||
|
uint64_t match_criteria0;
|
|||
|
uint64_t output;
|
|||
|
uint64_t table;
|
|||
|
uint64_t match_criteria1;
|
|||
|
uint64_t match_criteria2;
|
|||
|
uint64_t match_criteria3;
|
|||
|
uint64_t reserved[5];
|
|||
|
};
|
|||
|
|
|||
|
|
|||
|
The exact field offsets, sizes, and composition are as follows:
|
|||
|
|
|||
|
Offset Size Field Description
|
|||
|
0 4 CCB header (Table 36.1, “CCB Header Format”)
|
|||
|
4 4 Command control
|
|||
|
Bits Field Description
|
|||
|
[31:28] Primary Input Format (see Section 36.2.1.1.1, “Primary Input
|
|||
|
Format”)
|
|||
|
[27:23] Primary Input Element Size (see Section 36.2.1.1.2, “Primary
|
|||
|
Input Element Size”)
|
|||
|
[22:20] Primary Input Starting Offset (see Section 36.2.1.1.5, “Input
|
|||
|
Element Offsets”)
|
|||
|
[19] Secondary Input Format (see Section 36.2.1.1.3, “Secondary
|
|||
|
Input Format”)
|
|||
|
[18:16] Secondary Input Starting Offset (see Section 36.2.1.1.5, “Input
|
|||
|
Element Offsets”)
|
|||
|
[15:14] Secondary Input Element Size (see Section 36.2.1.1.4,
|
|||
|
“Secondary Input Element Size”
|
|||
|
[13:10] Output Format (see Section 36.2.1.1.6, “Output Format”)
|
|||
|
[9:5] Operand size for first scan criteria value. In a scan value
|
|||
|
operation, this is one of two potential exact match values.
|
|||
|
In a scan range operation, this is the size of the upper range
|
|||
|
|
|||
|
|
|||
|
520
|
|||
|
Coprocessor services
|
|||
|
|
|||
|
|
|||
|
Offset Size Field Description
|
|||
|
Bits Field Description
|
|||
|
boundary. The value of this field is the number of bytes in the
|
|||
|
operand, minus 1. Values 0xF-0x1E are reserved. A value of
|
|||
|
0x1F indicates this operand is not in use for this scan operation.
|
|||
|
[4:0] Operand size for second scan criteria value. In a scan value
|
|||
|
operation, this is one of two potential exact match values.
|
|||
|
In a scan range operation, this is the size of the lower range
|
|||
|
boundary. The value of this field is the number of bytes in the
|
|||
|
operand, minus 1. Values 0xF-0x1E are reserved. A value of
|
|||
|
0x1F indicates this operand is not in use for this scan operation.
|
|||
|
8 8 Completion (same fields as Section 36.2.1.2, “Extract command”)
|
|||
|
16 8 Primary Input (same fields as Section 36.2.1.2, “Extract command”)
|
|||
|
24 8 Data Access Control (same fields as Section 36.2.1.2, “Extract command”)
|
|||
|
32 8 Secondary Input, if used by Primary Input Format. Same fields as Primary
|
|||
|
Input.
|
|||
|
40 4 Most significant 4 bytes of first scan criteria operand. If first operand is less
|
|||
|
than 4 bytes, the value is left-aligned to the lowest address bytes.
|
|||
|
44 4 Most significant 4 bytes of second scan criteria operand. If second operand
|
|||
|
is less than 4 bytes, the value is left-aligned to the lowest address bytes.
|
|||
|
48 8 Output (same fields as Primary Input)
|
|||
|
56 8 Symbol Table (if used by Primary Input). Same fields as Section 36.2.1.2,
|
|||
|
“Extract command”
|
|||
|
64 4 Next 4 most significant bytes of first scan criteria operand occurring after the
|
|||
|
bytes specified at offset 40, if needed by the operand size. If first operand
|
|||
|
is less than 8 bytes, the valid bytes are left-aligned to the lowest address.
|
|||
|
68 4 Next 4 most significant bytes of second scan criteria operand occurring after
|
|||
|
the bytes specified at offset 44, if needed by the operand size. If second
|
|||
|
operand is less than 8 bytes, the valid bytes are left-aligned to the lowest
|
|||
|
address.
|
|||
|
72 4 Next 4 most significant bytes of first scan criteria operand occurring after the
|
|||
|
bytes specified at offset 64, if needed by the operand size. If first operand
|
|||
|
is less than 12 bytes, the valid bytes are left-aligned to the lowest address.
|
|||
|
76 4 Next 4 most significant bytes of second scan criteria operand occurring after
|
|||
|
the bytes specified at offset 68, if needed by the operand size. If second
|
|||
|
operand is less than 12 bytes, the valid bytes are left-aligned to the lowest
|
|||
|
address.
|
|||
|
80 4 Next 4 most significant bytes of first scan criteria operand occurring after the
|
|||
|
bytes specified at offset 72, if needed by the operand size. If first operand
|
|||
|
is less than 16 bytes, the valid bytes are left-aligned to the lowest address.
|
|||
|
84 4 Next 4 most significant bytes of second scan criteria operand occurring after
|
|||
|
the bytes specified at offset 76, if needed by the operand size. If second
|
|||
|
operand is less than 16 bytes, the valid bytes are left-aligned to the lowest
|
|||
|
address.
|
|||
|
|
|||
|
|
|||
|
|
|||
|
|
|||
|
521
|
|||
|
Coprocessor services
|
|||
|
|
|||
|
|
|||
|
36.2.1.4. Translate commands
|
|||
|
|
|||
|
The translate commands takes an input array of indices, and a table of single bit values indexed by those
|
|||
|
indices, and outputs a bit vector or index array created by reading the tables bit value at each index in
|
|||
|
the input array. The output should therefore contain exactly one bit per index in the input data stream,
|
|||
|
when outputting as a bit vector. When outputting as an index array, the number of elements depends on the
|
|||
|
values read in the bit table, but will always be less than, or equal to, the number of input elements. Only
|
|||
|
a restricted subset of the possible input format types are supported. No variable width or Huffman/OZIP
|
|||
|
encoded input streams are allowed. The primary input data element size must be 3 bytes or less.
|
|||
|
|
|||
|
The maximum table index size allowed is 15 bits, however, larger input elements may be used to provide
|
|||
|
additional processing of the output values. If 2 or 3 byte values are used, the least significant 15 bits are
|
|||
|
used as an index into the bit table. The most significant 9 bits (when using 3-byte input elements) or single
|
|||
|
bit (when using 2-byte input elements) are compared against a fixed 9-bit test value provided in the CCB.
|
|||
|
If the values match, the value from the bit table is used as the output element value. If the values do not
|
|||
|
match, the output data element value is forced to 0.
|
|||
|
|
|||
|
In the inverted translate operation, the bit value read from bit table is inverted prior to its use. The additional
|
|||
|
additional processing based on any additional non-index bits remains unchanged, and still forces the output
|
|||
|
element value to 0 on a mismatch. The specific type of translate command is indicated by the command
|
|||
|
code in the CCB header.
|
|||
|
|
|||
|
There are two supported formats for the output stream: the bit vector and index array formats (codes 0x8,
|
|||
|
0xD, and 0xE). The index array format is an array of indices of bits which would have been set if the
|
|||
|
output format was a bit array.
|
|||
|
|
|||
|
The return value of the CCB completion area contains the number of bits set in the output bit vector,
|
|||
|
or number of elements in the output index array. The “number of elements processed” field in the CCB
|
|||
|
completion area will be valid, indicating the number of input elements processed.
|
|||
|
|
|||
|
These commands are 64-byte “short format” CCBs.
|
|||
|
|
|||
|
The translate CCB command format can be specified by the following packed C structure for a big-endian
|
|||
|
machine:
|
|||
|
|
|||
|
|
|||
|
struct translate_ccb {
|
|||
|
uint32_t header;
|
|||
|
uint32_t control;
|
|||
|
uint64_t completion;
|
|||
|
uint64_t primary_input;
|
|||
|
uint64_t data_access_control;
|
|||
|
uint64_t secondary_input;
|
|||
|
uint64_t reserved;
|
|||
|
uint64_t output;
|
|||
|
uint64_t table;
|
|||
|
};
|
|||
|
|
|||
|
|
|||
|
The exact field offsets, sizes, and composition are as follows:
|
|||
|
|
|||
|
|
|||
|
Offset Size Field Description
|
|||
|
0 4 CCB header (Table 36.1, “CCB Header Format”)
|
|||
|
|
|||
|
|
|||
|
522
|
|||
|
Coprocessor services
|
|||
|
|
|||
|
|
|||
|
Offset Size Field Description
|
|||
|
4 4 Command control
|
|||
|
Bits Field Description
|
|||
|
[31:28] Primary Input Format (see Section 36.2.1.1.1, “Primary Input
|
|||
|
Format”)
|
|||
|
[27:23] Primary Input Element Size (see Section 36.2.1.1.2, “Primary
|
|||
|
Input Element Size”)
|
|||
|
[22:20] Primary Input Starting Offset (see Section 36.2.1.1.5, “Input
|
|||
|
Element Offsets”)
|
|||
|
[19] Secondary Input Format (see Section 36.2.1.1.3, “Secondary
|
|||
|
Input Format”)
|
|||
|
[18:16] Secondary Input Starting Offset (see Section 36.2.1.1.5, “Input
|
|||
|
Element Offsets”)
|
|||
|
[15:14] Secondary Input Element Size (see Section 36.2.1.1.4,
|
|||
|
“Secondary Input Element Size”
|
|||
|
[13:10] Output Format (see Section 36.2.1.1.6, “Output Format”)
|
|||
|
[9] Reserved
|
|||
|
[8:0] Test value used for comparison against the most significant bits
|
|||
|
in the input values, when using 2 or 3 byte input elements.
|
|||
|
8 8 Completion (same fields as Section 36.2.1.2, “Extract command”
|
|||
|
16 8 Primary Input (same fields as Section 36.2.1.2, “Extract command”
|
|||
|
24 8 Data Access Control (same fields as Section 36.2.1.2, “Extract command”,
|
|||
|
except Primary Input Length Format may not use the 0x0 value)
|
|||
|
32 8 Secondary Input, if used by Primary Input Format. Same fields as Primary
|
|||
|
Input.
|
|||
|
40 8 Reserved
|
|||
|
48 8 Output (same fields as Primary Input)
|
|||
|
56 8 Bit Table
|
|||
|
Bits Field Description
|
|||
|
[63:60] ADI version (see Section 36.2.1.1.7, “Application Data
|
|||
|
Integrity (ADI)”)
|
|||
|
[59:56] If using real address, these bits should be filled in with the
|
|||
|
page size code for the page boundary checking the guest wants
|
|||
|
the virtual machine to use when accessing this data stream
|
|||
|
(checking is only guaranteed to be performed when using API
|
|||
|
version 1.1 and later). If using a virtual address, this field will
|
|||
|
be used as as bit table address bits [59:56]
|
|||
|
[55:4] Bit table address bits [55:4]. Address type is determined by
|
|||
|
CCB header. Address must be 64-byte aligned (CCB version
|
|||
|
0) or 16-byte aligned (CCB version 1).
|
|||
|
[3:0] Bit table version
|
|||
|
Value Description
|
|||
|
0 4KB table size
|
|||
|
1 8KB table size
|
|||
|
|
|||
|
|
|||
|
|
|||
|
523
|
|||
|
Coprocessor services
|
|||
|
|
|||
|
|
|||
|
36.2.1.5. Select command
|
|||
|
The select command filters the primary input data stream by using a secondary input bit vector to determine
|
|||
|
which input elements to include in the output. For each bit set at a given index N within the bit vector,
|
|||
|
the Nth input element is included in the output. If the bit is not set, the element is not included. Only a
|
|||
|
restricted subset of the possible input format types are supported. No variable width or run length encoded
|
|||
|
input streams are allowed, since the secondary input stream is used for the filtering bit vector.
|
|||
|
|
|||
|
The only supported output format is a padded, byte-aligned output stream. The stream follows the same
|
|||
|
rules and restrictions as padded output stream described in Section 36.2.1.2, “Extract command”.
|
|||
|
|
|||
|
The return value of the CCB completion area contains the number of bits set in the input bit vector. The
|
|||
|
"number of elements processed" field in the CCB completion area will be valid, indicating the number
|
|||
|
of input elements processed.
|
|||
|
|
|||
|
The select CCB is a 64-byte “short format” CCB.
|
|||
|
|
|||
|
The select CCB command format can be specified by the following packed C structure for a big-endian
|
|||
|
machine:
|
|||
|
|
|||
|
|
|||
|
struct select_ccb {
|
|||
|
uint32_t header;
|
|||
|
uint32_t control;
|
|||
|
uint64_t completion;
|
|||
|
uint64_t primary_input;
|
|||
|
uint64_t data_access_control;
|
|||
|
uint64_t secondary_input;
|
|||
|
uint64_t reserved;
|
|||
|
uint64_t output;
|
|||
|
uint64_t table;
|
|||
|
};
|
|||
|
|
|||
|
|
|||
|
The exact field offsets, sizes, and composition are as follows:
|
|||
|
|
|||
|
Offset Size Field Description
|
|||
|
0 4 CCB header (Table 36.1, “CCB Header Format”)
|
|||
|
4 4 Command control
|
|||
|
Bits Field Description
|
|||
|
[31:28] Primary Input Format (see Section 36.2.1.1.1, “Primary Input
|
|||
|
Format”)
|
|||
|
[27:23] Primary Input Element Size (see Section 36.2.1.1.2, “Primary
|
|||
|
Input Element Size”)
|
|||
|
[22:20] Primary Input Starting Offset (see Section 36.2.1.1.5, “Input
|
|||
|
Element Offsets”)
|
|||
|
[19] Secondary Input Format (see Section 36.2.1.1.3, “Secondary
|
|||
|
Input Format”)
|
|||
|
[18:16] Secondary Input Starting Offset (see Section 36.2.1.1.5, “Input
|
|||
|
Element Offsets”)
|
|||
|
[15:14] Secondary Input Element Size (see Section 36.2.1.1.4,
|
|||
|
“Secondary Input Element Size”
|
|||
|
|
|||
|
|
|||
|
524
|
|||
|
Coprocessor services
|
|||
|
|
|||
|
|
|||
|
Offset Size Field Description
|
|||
|
Bits Field Description
|
|||
|
[13:10] Output Format (see Section 36.2.1.1.6, “Output Format”)
|
|||
|
[9] Padding Direction selector: A value of 1 causes padding bytes
|
|||
|
to be added to the left side of output elements. A value of 0
|
|||
|
causes padding bytes to be added to the right side of output
|
|||
|
elements.
|
|||
|
[8:0] Reserved
|
|||
|
8 8 Completion (same fields as Section 36.2.1.2, “Extract command”
|
|||
|
16 8 Primary Input (same fields as Section 36.2.1.2, “Extract command”
|
|||
|
24 8 Data Access Control (same fields as Section 36.2.1.2, “Extract command”)
|
|||
|
32 8 Secondary Bit Vector Input. Same fields as Primary Input.
|
|||
|
40 8 Reserved
|
|||
|
48 8 Output (same fields as Primary Input)
|
|||
|
56 8 Symbol Table (if used by Primary Input). Same fields as Section 36.2.1.2,
|
|||
|
“Extract command”
|
|||
|
|
|||
|
36.2.1.6. No-op and Sync commands
|
|||
|
The no-op (no operation) command is a CCB which has no processing effect. The CCB, when processed
|
|||
|
by the virtual machine, simply updates the completion area with its execution status. The CCB may have
|
|||
|
the serial-conditional flags set in order to restrict when it executes.
|
|||
|
|
|||
|
The sync command is a variant of the no-op command which with restricted execution timing. A sync
|
|||
|
command CCB will only execute when all previous commands submitted in the same request have
|
|||
|
completed. This is stronger than the conditional flag sequencing, which is only dependent on a single
|
|||
|
previous serial CCB. While the relative ordering is guaranteed, virtual machine implementations with
|
|||
|
shared hardware resources may cause the sync command to wait for longer than the minimum required
|
|||
|
time.
|
|||
|
|
|||
|
The return value of the CCB completion area is invalid for these CCBs. The “number of elements
|
|||
|
processed” field is also invalid for these CCBs.
|
|||
|
|
|||
|
These commands are 64-byte “short format” CCBs.
|
|||
|
|
|||
|
The no-op CCB command format can be specified by the following packed C structure for a big-endian
|
|||
|
machine:
|
|||
|
|
|||
|
|
|||
|
struct nop_ccb {
|
|||
|
uint32_t header;
|
|||
|
uint32_t control;
|
|||
|
uint64_t completion;
|
|||
|
uint64_t reserved[6];
|
|||
|
};
|
|||
|
|
|||
|
|
|||
|
The exact field offsets, sizes, and composition are as follows:
|
|||
|
|
|||
|
Offset Size Field Description
|
|||
|
0 4 CCB header (Table 36.1, “CCB Header Format”)
|
|||
|
|
|||
|
|
|||
|
525
|
|||
|
Coprocessor services
|
|||
|
|
|||
|
|
|||
|
Offset Size Field Description
|
|||
|
4 4 Command control
|
|||
|
Bits Field Description
|
|||
|
[31] If set, this CCB functions as a Sync command. If clear, this
|
|||
|
CCB functions as a No-op command.
|
|||
|
[30:0] Reserved
|
|||
|
8 8 Completion (same fields as Section 36.2.1.2, “Extract command”
|
|||
|
16 46 Reserved
|
|||
|
|
|||
|
36.2.2. CCB Completion Area
|
|||
|
All CCB commands use a common 128-byte Completion Area format, which can be specified by the
|
|||
|
following packed C structure for a big-endian machine:
|
|||
|
|
|||
|
|
|||
|
struct completion_area {
|
|||
|
uint8_t status_flag;
|
|||
|
uint8_t error_note;
|
|||
|
uint8_t rsvd0[2];
|
|||
|
uint32_t error_values;
|
|||
|
uint32_t output_size;
|
|||
|
uint32_t rsvd1;
|
|||
|
uint64_t run_time;
|
|||
|
uint64_t run_stats;
|
|||
|
uint32_t elements;
|
|||
|
uint8_t rsvd2[20];
|
|||
|
uint64_t return_value;
|
|||
|
uint64_t extra_return_value[8];
|
|||
|
};
|
|||
|
|
|||
|
|
|||
|
The Completion Area must be a 128-byte aligned memory location. The exact layout can be described
|
|||
|
using byte offsets and sizes relative to the memory base:
|
|||
|
|
|||
|
Offset Size Field Description
|
|||
|
0 1 CCB execution status
|
|||
|
0x0 Command not yet completed
|
|||
|
0x1 Command ran and succeeded
|
|||
|
0x2 Command ran and failed (partial results may be been
|
|||
|
produced)
|
|||
|
0x3 Command ran and was killed (partial execution may
|
|||
|
have occurred)
|
|||
|
0x4 Command was not run
|
|||
|
0x5-0xF Reserved
|
|||
|
1 1 Error reason code
|
|||
|
0x0 Reserved
|
|||
|
0x1 Buffer overflow
|
|||
|
|
|||
|
|
|||
|
526
|
|||
|
Coprocessor services
|
|||
|
|
|||
|
|
|||
|
Offset Size Field Description
|
|||
|
0x2 CCB decoding error
|
|||
|
0x3 Page overflow
|
|||
|
0x4-0x6 Reserved
|
|||
|
0x7 Command was killed
|
|||
|
0x8 Command execution timeout
|
|||
|
0x9 ADI miscompare error
|
|||
|
0xA Data format error
|
|||
|
0xB-0xD Reserved
|
|||
|
0xE Unexpected hardware error (Do not retry)
|
|||
|
0xF Unexpected hardware error (Retry is ok)
|
|||
|
0x10-0x7F Reserved
|
|||
|
0x80 Partial Symbol Warning
|
|||
|
0x81-0xFF Reserved
|
|||
|
2 2 Reserved
|
|||
|
4 4 If a partial symbol warning was generated, this field contains the number
|
|||
|
of remaining bits which were not decoded.
|
|||
|
8 4 Number of bytes of output produced
|
|||
|
12 4 Reserved
|
|||
|
16 8 Runtime of command (unspecified time units)
|
|||
|
24 8 Reserved
|
|||
|
32 4 Number of elements processed
|
|||
|
36 20 Reserved
|
|||
|
56 8 Return value
|
|||
|
64 64 Extended return value
|
|||
|
|
|||
|
The CCB completion area should be treated as read-only by guest software. The CCB execution status
|
|||
|
byte will be cleared by the Hypervisor to reflect the pending execution status when the CCB is submitted
|
|||
|
successfully. All other fields are considered invalid upon CCB submission until the CCB execution status
|
|||
|
byte becomes non-zero.
|
|||
|
|
|||
|
CCBs which complete with status 0x2 or 0x3 may produce partial results and/or side effects due to partial
|
|||
|
execution of the CCB command. Some valid data may be accessible depending on the fault type, however,
|
|||
|
it is recommended that guest software treat the destination buffer as being in an unknown state. If a CCB
|
|||
|
completes with a status byte of 0x2, the error reason code byte can be read to determine what corrective
|
|||
|
action should be taken.
|
|||
|
|
|||
|
A buffer overflow indicates that the results of the operation exceeded the size of the output buffer indicated
|
|||
|
in the CCB. The operation can be retried by resubmitting the CCB with a larger output buffer.
|
|||
|
|
|||
|
A CCB decoding error indicates that the CCB contained some invalid field values. It may be also be
|
|||
|
triggered if the CCB output is directed at a non-existent secondary input and the pipelining hint is followed.
|
|||
|
|
|||
|
A page overflow error indicates that the operation required accessing a memory location beyond the page
|
|||
|
size associated with a given address. No data will have been read or written past the page boundary, but
|
|||
|
partial results may have been written to the destination buffer. The CCB can be resubmitted with a larger
|
|||
|
page size memory allocation to complete the operation.
|
|||
|
|
|||
|
|
|||
|
527
|
|||
|
Coprocessor services
|
|||
|
|
|||
|
|
|||
|
In the case of pipelined CCBs, a page overflow error will be triggered if the output from the pipeline source
|
|||
|
CCB ends before the input of the pipeline target CCB. Page boundaries are ignored when the pipeline
|
|||
|
hint is followed.
|
|||
|
|
|||
|
Command kill indicates that the CCB execution was halted or prevented by use of the ccb_kill API call.
|
|||
|
|
|||
|
Command timeout indicates that the CCB execution began, but did not complete within a pre-determined
|
|||
|
limit set by the virtual machine. The command may have produced some or no output. The CCB may be
|
|||
|
resubmitted with no alterations.
|
|||
|
|
|||
|
ADI miscompare indicates that the memory buffer version specified in the CCB did not match the value
|
|||
|
in memory when accessed by the virtual machine. Guest software should not attempt to resubmit the CCB
|
|||
|
without determining the cause of the version mismatch.
|
|||
|
|
|||
|
A data format error indicates that the input data stream did not follow the specified data input formatting
|
|||
|
selected in the CCB.
|
|||
|
|
|||
|
Some CCBs which encounter hardware errors may be resubmitted without change. Persistent hardware
|
|||
|
errors may result in multiple failures until RAS software can identify and isolate the faulty component.
|
|||
|
|
|||
|
The output size field indicates the number of bytes of valid output in the destination buffer. This field is
|
|||
|
not valid for all possible CCB commands.
|
|||
|
|
|||
|
The runtime field indicates the execution time of the CCB command once it leaves the internal virtual
|
|||
|
machine queue. The time units are fixed, but unspecified, allowing only relative timing comparisons
|
|||
|
by guest software. The time units may also vary by hardware platform, and should not be construed to
|
|||
|
represent any absolute time value.
|
|||
|
|
|||
|
Some data query commands process data in units of elements. If applicable to the command, the number of
|
|||
|
elements processed is indicated in the listed field. This field is not valid for all possible CCB commands.
|
|||
|
|
|||
|
The return value and extended return value fields are output locations for commands which do not use
|
|||
|
a destination output buffer, or have secondary return results. The field is not valid for all possible CCB
|
|||
|
commands.
|
|||
|
|
|||
|
36.3. Hypervisor API Functions
|
|||
|
36.3.1. ccb_submit
|
|||
|
trap# FAST_TRAP
|
|||
|
function# CCB_SUBMIT
|
|||
|
arg0 address
|
|||
|
arg1 length
|
|||
|
arg2 flags
|
|||
|
arg3 reserved
|
|||
|
ret0 status
|
|||
|
ret1 length
|
|||
|
ret2 status data
|
|||
|
ret3 reserved
|
|||
|
|
|||
|
Submit one or more coprocessor control blocks (CCBs) for evaluation and processing by the virtual
|
|||
|
machine. The CCBs are passed in a linear array indicated by address. length indicates the size of
|
|||
|
the array in bytes.
|
|||
|
|
|||
|
|
|||
|
528
|
|||
|
Coprocessor services
|
|||
|
|
|||
|
|
|||
|
The address should be aligned to the size indicated by length, rounded up to the nearest power of
|
|||
|
two. Virtual machines implementations may reject submissions which do not adhere to that alignment.
|
|||
|
length must be a multiple of 64 bytes. If length is zero, the maximum supported array length will be
|
|||
|
returned as length in ret1. In all other cases, the length value in ret1 will reflect the number of bytes
|
|||
|
successfully consumed from the input CCB array.
|
|||
|
|
|||
|
Implementation note
|
|||
|
Virtual machines should never reject submissions based on the alignment of address if the
|
|||
|
entire array is contained within a single memory page of the smallest page size supported by the
|
|||
|
virtual machine.
|
|||
|
|
|||
|
A guest may choose to submit addresses used in this API function, including the CCB array address,
|
|||
|
as either a real or virtual addresses, with the type of each address indicated in flags. Virtual addresses
|
|||
|
must be present in either the TLB or an active TSB to be processed. The translation context for virtual
|
|||
|
addresses is determined by a combination of CCB contents and the flags argument.
|
|||
|
|
|||
|
The flags argument is divided into multiple fields defined as follows:
|
|||
|
|
|||
|
|
|||
|
Bits Field Description
|
|||
|
[63:16] Reserved
|
|||
|
[15] Disable ADI for VA reads (in API 2.0)
|
|||
|
Reserved (in API 1.0)
|
|||
|
[14] Virtual addresses within CCBs are translated in privileged context
|
|||
|
[13:12] Alternate translation context for virtual addresses within CCBs:
|
|||
|
0b'00 CCBs requesting alternate context are rejected
|
|||
|
0b'01 Reserved
|
|||
|
0b'10 CCBs requesting alternate context use secondary context
|
|||
|
0b'11 CCBs requesting alternate context use nucleus context
|
|||
|
[11:9] Reserved
|
|||
|
[8] Queue info flag
|
|||
|
[7] All-or-nothing flag
|
|||
|
[6] If address is a virtual address, treat its translation context as privileged
|
|||
|
[5:4] Address type of address:
|
|||
|
0b'00 Real address
|
|||
|
0b'01 Virtual address in primary context
|
|||
|
0b'10 Virtual address in secondary context
|
|||
|
0b'11 Virtual address in nucleus context
|
|||
|
[3:2] Reserved
|
|||
|
[1:0] CCB command type:
|
|||
|
0b'00 Reserved
|
|||
|
0b'01 Reserved
|
|||
|
0b'10 Query command
|
|||
|
0b'11 Reserved
|
|||
|
|
|||
|
|
|||
|
|
|||
|
529
|
|||
|
Coprocessor services
|
|||
|
|
|||
|
|
|||
|
The CCB submission type and address type for the CCB array must be provided in the flags argument.
|
|||
|
All other fields are optional values which change the default behavior of the CCB processing.
|
|||
|
|
|||
|
When set to one, the "Disable ADI for VA reads" bit will turn off ADI checking when using a virtual
|
|||
|
address to load data. ADI checking will still be done when loading real-addressed memory. This bit is only
|
|||
|
available when using major version 2 of the coprocessor API group; at major version 1 it is reserved. For
|
|||
|
more information about using ADI and DAX, see Section 36.2.1.1.7, “Application Data Integrity (ADI)”.
|
|||
|
|
|||
|
By default, all virtual addresses are treated as user addresses. If the virtual address translations are
|
|||
|
privileged, they must be marked as such in the appropriate flags field. The virtual addresses used within
|
|||
|
the submitted CCBs must all be translated with the same privilege level.
|
|||
|
|
|||
|
By default, all virtual addresses used within the submitted CCBs are translated using the primary context
|
|||
|
active at the time of the submission. The address type field within a CCB allows each address to request
|
|||
|
translation in an alternate address context. The address context used when the alternate address context is
|
|||
|
requested is selected in the flags argument.
|
|||
|
|
|||
|
The all-or-nothing flag specifies whether the virtual machine should allow partial submissions of the
|
|||
|
input CCB array. When using CCBs with serial-conditional flags, it is strongly recommended to use
|
|||
|
the all-or-nothing flag to avoid broken conditional chains. Using long CCB chains on a machine under
|
|||
|
high coprocessor load may make this impractical, however, and require submitting without the flag.
|
|||
|
When submitting serial-conditional CCBs without the all-or-nothing flag, guest software must manually
|
|||
|
implement the serial-conditional behavior at any point where the chain was not submitted in a single API
|
|||
|
call, and resubmission of the remaining CCBs should clear any conditional flag that might be set in the
|
|||
|
first remaining CCB. Failure to do so will produce indeterminate CCB execution status and ordering.
|
|||
|
|
|||
|
When the all-or-nothing flag is not specified, callers should check the value of length in ret1 to determine
|
|||
|
how many CCBs from the array were successfully submitted. Any remaining CCBs can be resubmitted
|
|||
|
without modifications.
|
|||
|
|
|||
|
The value of length in ret1 is also valid when the API call returns an error, and callers should always
|
|||
|
check its value to determine which CCBs in the array were already processed. This will additionally
|
|||
|
identify which CCB encountered the processing error, and was not submitted successfully.
|
|||
|
|
|||
|
If the queue info flag is used during submission, and at least one CCB was successfully submitted, the
|
|||
|
length value in ret1 will be a multi-field value defined as follows:
|
|||
|
Bits Field Description
|
|||
|
[63:48] DAX unit instance identifier
|
|||
|
[47:32] DAX queue instance identifier
|
|||
|
[31:16] Reserved
|
|||
|
[15:0] Number of CCB bytes successfully submitted
|
|||
|
|
|||
|
The value of status data depends on the status value. See error status code descriptions for details.
|
|||
|
The value is undefined for status values that do not specifically list a value for the status data.
|
|||
|
|
|||
|
The API has a reserved input and output register which will be used in subsequent minor versions of this
|
|||
|
API function. Guest software implementations should treat that register as voltile across the function call
|
|||
|
in order to maintain forward compatibility.
|
|||
|
|
|||
|
36.3.1.1. Errors
|
|||
|
EOK One or more CCBs have been accepted and enqueued in the virtual machine
|
|||
|
and no errors were been encountered during submission. Some submitted
|
|||
|
CCBs may not have been enqueued due to internal virtual machine limitations,
|
|||
|
and may be resubmitted without changes.
|
|||
|
|
|||
|
|
|||
|
530
|
|||
|
Coprocessor services
|
|||
|
|
|||
|
|
|||
|
EWOULDBLOCK An internal resource conflict within the virtual machine has prevented it from
|
|||
|
being able to complete the CCB submissions sufficiently quickly, requiring
|
|||
|
it to abandon processing before it was complete. Some CCBs may have been
|
|||
|
successfully enqueued prior to the block, and all remaining CCBs may be
|
|||
|
resubmitted without changes.
|
|||
|
EBADALIGN CCB array is not on a 64-byte boundary, or the array length is not a multiple
|
|||
|
of 64 bytes.
|
|||
|
ENORADDR A real address used either for the CCB array, or within one of the submitted
|
|||
|
CCBs, is not valid for the guest. Some CCBs may have been enqueued prior
|
|||
|
to the error being detected.
|
|||
|
ENOMAP A virtual address used either for the CCB array, or within one of the submitted
|
|||
|
CCBs, could not be translated by the virtual machine using either the TLB
|
|||
|
or TSB contents. The submission may be retried after adding the required
|
|||
|
mapping, or by converting the virtual address into a real address. Due to the
|
|||
|
shared nature of address translation resources, there is no theoretical limit on
|
|||
|
the number of times the translation may fail, and it is recommended all guests
|
|||
|
implement some real address based backup. The virtual address which failed
|
|||
|
translation is returned as status data in ret2. Some CCBs may have been
|
|||
|
enqueued prior to the error being detected.
|
|||
|
EINVAL The virtual machine detected an invalid CCB during submission, or invalid
|
|||
|
input arguments, such as bad flag values. Note that not all invalid CCB values
|
|||
|
will be detected during submission, and some may be reported as errors in the
|
|||
|
completion area instead. Some CCBs may have been enqueued prior to the
|
|||
|
error being detected. This error may be returned if the CCB version is invalid.
|
|||
|
ETOOMANY The request was submitted with the all-or-nothing flag set, and the array size is
|
|||
|
greater than the virtual machine can support in a single request. The maximum
|
|||
|
supported size for the current virtual machine can be queried by submitting a
|
|||
|
request with a zero length array, as described above.
|
|||
|
ENOACCESS The guest does not have permission to submit CCBs, or an address used in a
|
|||
|
CCBs lacks sufficient permissions to perform the required operation (no write
|
|||
|
permission on the destination buffer address, for example). A virtual address
|
|||
|
which fails permission checking is returned as status data in ret2. Some
|
|||
|
CCBs may have been enqueued prior to the error being detected.
|
|||
|
EUNAVAILABLE The requested CCB operation could not be performed at this time. The
|
|||
|
restricted operation availability may apply only to the first unsuccessfully
|
|||
|
submitted CCB, or may apply to a larger scope. The status should not be
|
|||
|
interpreted as permanent, and the guest should attempt to submit CCBs in
|
|||
|
the future which had previously been unable to be performed. The status
|
|||
|
data provides additional information about scope of the restricted availability
|
|||
|
as follows:
|
|||
|
Value Description
|
|||
|
0 Processing for the exact CCB instance submitted was unavailable,
|
|||
|
and it is recommended the guest emulate the operation. The
|
|||
|
guest should continue to submit all other CCBs, and assume no
|
|||
|
restrictions beyond this exact CCB instance.
|
|||
|
1 Processing is unavailable for all CCBs using the requested opcode,
|
|||
|
and it is recommended the guest emulate the operation. The
|
|||
|
guest should continue to submit all other CCBs that use different
|
|||
|
opcodes, but can expect continued rejections of CCBs using the
|
|||
|
same opcode in the near future.
|
|||
|
|
|||
|
|
|||
|
531
|
|||
|
Coprocessor services
|
|||
|
|
|||
|
|
|||
|
Value Description
|
|||
|
2 Processing is unavailable for all CCBs using the requested CCB
|
|||
|
version, and it is recommended the guest emulate the operation.
|
|||
|
The guest should continue to submit all other CCBs that use
|
|||
|
different CCB versions, but can expect continued rejections of
|
|||
|
CCBs using the same CCB version in the near future.
|
|||
|
3 Processing is unavailable for all CCBs on the submitting vcpu,
|
|||
|
and it is recommended the guest emulate the operation or resubmit
|
|||
|
the CCB on a different vcpu. The guest should continue to submit
|
|||
|
CCBs on all other vcpus but can expect continued rejections of all
|
|||
|
CCBs on this vcpu in the near future.
|
|||
|
4 Processing is unavailable for all CCBs, and it is recommended
|
|||
|
the guest emulate the operation. The guest should expect all CCB
|
|||
|
submissions to be similarly rejected in the near future.
|
|||
|
|
|||
|
|
|||
|
36.3.2. ccb_info
|
|||
|
|
|||
|
trap# FAST_TRAP
|
|||
|
function# CCB_INFO
|
|||
|
arg0 address
|
|||
|
ret0 status
|
|||
|
ret1 CCB state
|
|||
|
ret2 position
|
|||
|
ret3 dax
|
|||
|
ret4 queue
|
|||
|
|
|||
|
Requests status information on a previously submitted CCB. The previously submitted CCB is identified
|
|||
|
by the 64-byte aligned real address of the CCBs completion area.
|
|||
|
|
|||
|
A CCB can be in one of 4 states:
|
|||
|
|
|||
|
|
|||
|
State Value Description
|
|||
|
COMPLETED 0 The CCB has been fetched and executed, and is no longer active in
|
|||
|
the virtual machine.
|
|||
|
ENQUEUED 1 The requested CCB is current in a queue awaiting execution.
|
|||
|
INPROGRESS 2 The CCB has been fetched and is currently being executed. It may still
|
|||
|
be possible to stop the execution using the ccb_kill hypercall.
|
|||
|
NOTFOUND 3 The CCB could not be located in the virtual machine, and does not
|
|||
|
appear to have been executed. This may occur if the CCB was lost
|
|||
|
due to a hardware error, or the CCB may not have been successfully
|
|||
|
submitted to the virtual machine in the first place.
|
|||
|
|
|||
|
Implementation note
|
|||
|
Some platforms may not be able to report CCBs that are currently being processed, and therefore
|
|||
|
guest software should invoke the ccb_kill hypercall prior to assuming the request CCB will never
|
|||
|
be executed because it was in the NOTFOUND state.
|
|||
|
|
|||
|
|
|||
|
532
|
|||
|
Coprocessor services
|
|||
|
|
|||
|
|
|||
|
The position return value is only valid when the state is ENQUEUED. The value returned is the number
|
|||
|
of other CCBs ahead of the requested CCB, to provide a relative estimate of when the CCB may execute.
|
|||
|
|
|||
|
The dax return value is only valid when the state is ENQUEUED. The value returned is the DAX unit
|
|||
|
instance identifier for the DAX unit processing the queue where the requested CCB is located. The value
|
|||
|
matches the value that would have been, or was, returned by ccb_submit using the queue info flag.
|
|||
|
|
|||
|
The queue return value is only valid when the state is ENQUEUED. The value returned is the DAX
|
|||
|
queue instance identifier for the DAX unit processing the queue where the requested CCB is located. The
|
|||
|
value matches the value that would have been, or was, returned by ccb_submit using the queue info flag.
|
|||
|
|
|||
|
36.3.2.1. Errors
|
|||
|
|
|||
|
EOK The request was processed and the CCB state is valid.
|
|||
|
EBADALIGN address is not on a 64-byte aligned.
|
|||
|
ENORADDR The real address provided for address is not valid.
|
|||
|
EINVAL The CCB completion area contents are not valid.
|
|||
|
EWOULDBLOCK Internal resource constraints prevented the CCB state from being queried at this
|
|||
|
time. The guest should retry the request.
|
|||
|
ENOACCESS The guest does not have permission to access the coprocessor virtual device
|
|||
|
functionality.
|
|||
|
|
|||
|
36.3.3. ccb_kill
|
|||
|
|
|||
|
trap# FAST_TRAP
|
|||
|
function# CCB_KILL
|
|||
|
arg0 address
|
|||
|
ret0 status
|
|||
|
ret1 result
|
|||
|
|
|||
|
Request to stop execution of a previously submitted CCB. The previously submitted CCB is identified by
|
|||
|
the 64-byte aligned real address of the CCBs completion area.
|
|||
|
|
|||
|
The kill attempt can produce one of several values in the result return value, reflecting the CCB state
|
|||
|
and actions taken by the Hypervisor:
|
|||
|
|
|||
|
Result Value Description
|
|||
|
COMPLETED 0 The CCB has been fetched and executed, and is no longer active in
|
|||
|
the virtual machine. It could not be killed and no action was taken.
|
|||
|
DEQUEUED 1 The requested CCB was still enqueued when the kill request was
|
|||
|
submitted, and has been removed from the queue. Since the CCB
|
|||
|
never began execution, no memory modifications were produced by
|
|||
|
it, and the completion area will never be updated. The same CCB may
|
|||
|
be submitted again, if desired, with no modifications required.
|
|||
|
KILLED 2 The CCB had been fetched and was being executed when the kill
|
|||
|
request was submitted. The CCB execution was stopped, and the CCB
|
|||
|
is no longer active in the virtual machine. The CCB completion area
|
|||
|
will reflect the killed status, with the subsequent implications that
|
|||
|
partial results may have been produced. Partial results may include full
|
|||
|
|
|||
|
|
|||
|
533
|
|||
|
Coprocessor services
|
|||
|
|
|||
|
|
|||
|
Result Value Description
|
|||
|
command execution if the command was stopped just prior to writing
|
|||
|
to the completion area.
|
|||
|
NOTFOUND 3 The CCB could not be located in the virtual machine, and does not
|
|||
|
appear to have been executed. This may occur if the CCB was lost
|
|||
|
due to a hardware error, or the CCB may not have been successfully
|
|||
|
submitted to the virtual machine in the first place. CCBs in the state
|
|||
|
are guaranteed to never execute in the future unless resubmitted.
|
|||
|
|
|||
|
36.3.3.1. Interactions with Pipelined CCBs
|
|||
|
|
|||
|
If the pipeline target CCB is killed but the pipeline source CCB was skipped, the completion area of the
|
|||
|
target CCB may contain status (4,0) "Command was skipped" instead of (3,7) "Command was killed".
|
|||
|
|
|||
|
If the pipeline source CCB is killed, the pipeline target CCB's completion status may read (1,0) "Success".
|
|||
|
This does not mean the target CCB was processed; since the source CCB was killed, there was no
|
|||
|
meaningful output on which the target CCB could operate.
|
|||
|
|
|||
|
36.3.3.2. Errors
|
|||
|
|
|||
|
EOK The request was processed and the result is valid.
|
|||
|
EBADALIGN address is not on a 64-byte aligned.
|
|||
|
ENORADDR The real address provided for address is not valid.
|
|||
|
EINVAL The CCB completion area contents are not valid.
|
|||
|
EWOULDBLOCK Internal resource constraints prevented the CCB from being killed at this time.
|
|||
|
The guest should retry the request.
|
|||
|
ENOACCESS The guest does not have permission to access the coprocessor virtual device
|
|||
|
functionality.
|
|||
|
|
|||
|
36.3.4. dax_info
|
|||
|
trap# FAST_TRAP
|
|||
|
function# DAX_INFO
|
|||
|
ret0 status
|
|||
|
ret1 Number of enabled DAX units
|
|||
|
ret2 Number of disabled DAX units
|
|||
|
|
|||
|
Returns the number of DAX units that are enabled for the calling guest to submit CCBs. The number of
|
|||
|
DAX units that are disabled for the calling guest are also returned. A disabled DAX unit would have been
|
|||
|
available for CCB submission to the calling guest had it not been offlined.
|
|||
|
|
|||
|
36.3.4.1. Errors
|
|||
|
|
|||
|
EOK The request was processed and the number of enabled/disabled DAX units
|
|||
|
are valid.
|
|||
|
|
|||
|
|
|||
|
|
|||
|
|
|||
|
534
|
|||
|
|